CN117164182A - Multistage interconnection type wastewater treatment mechanism for optical cement production - Google Patents

Abstract

The application discloses a multistage interconnection type waste water treatment mechanism for optical cement production, which relates to the technical field of waste water treatment, and comprises a primary treatment box body, a secondary treatment box body and a tertiary treatment box body, wherein the adjacent primary treatment box body, the secondary treatment box body and the tertiary treatment box body are communicated through a waste water interconnection mechanism, the adjacent primary treatment box body, the secondary treatment box body and the tertiary treatment box body are connected through clamping components, and the waste water interconnection mechanism also comprises a primary transmission component which is arranged on the side surface of the primary treatment box body and extends into the primary treatment box body; according to the application, after the treatment of the waste liquid in the upper group of treatment boxes is completed, the treatment of the waste liquid in the lower group of treatment boxes can be carried out without influencing the treatment work of the waste liquid in the upper group of treatment boxes, and meanwhile, the waste liquid is cleaned or produced by adding the waste liquid again, so that the multistage interconnection treatment is satisfied, and meanwhile, the treatment of the waste liquid can be carried out through multistage operation, so that the effect of impurity treatment in the waste liquid is ensured.

Description

Multistage interconnection type wastewater treatment mechanism for optical cement production

Technical Field

The application relates to the technical field related to wastewater treatment, in particular to a multistage interconnection type wastewater treatment mechanism for optical cement production.

Background

The optical adhesive is a special adhesive for cementing transparent optical elements (such as lenses, and the like), and generally needs to be subjected to the steps of mixing, filtering, cutting, vulcanizing, and the like when the optical adhesive is produced and processed, wherein in part of the steps, the production of the optical adhesive can generate certain waste liquid, and the generated waste liquid needs to be treated at the moment so as to avoid the random discharge of polluted water sources.

The prior Chinese patent with the publication number of CN116022983A discloses a wastewater treatment device for rubber tire production, which comprises a sedimentation tank and wastewater collection boxes arranged above the two opposite sides of the sedimentation tank, wherein two placement boxes are arranged on the two opposite sides of the inner wall of the sedimentation tank through mounting pieces, the four placement boxes are all positioned below the wastewater collection boxes, the four placement boxes are distributed at intervals from top to bottom, a water flowing pipe is communicated above one side of the wastewater collection box, grooves are formed in one side, far away from the inner wall of the sedimentation tank, of the four placement boxes, and filter plates are detachably connected between the groove walls of the two opposite sides in the four grooves through connecting pieces; according to the application, multiple filtration can be carried out on the wastewater through the four filter plates placed on the box, solid impurities in the wastewater are reduced, then the wastewater at the bottom of the settling tank enters the distillation tower through the pipeline, residual high-temperature steam after vulcanization of the vulcanizing equipment is utilized in the distillation tower to distill the wastewater, the generated distilled water can be recycled, the residual wastewater in the distillation tower can flow into the neutralization sedimentation tank, and the neutralization sedimentation tank is subjected to pH value neutralization and sedimentation, so that the water resource consumption is reduced.

The prior Chinese patent with the publication number of CN115124175A discloses a wastewater multistage treatment device and a multistage treatment method, wherein the wastewater multistage treatment device comprises a box body; the filter assembly and the storage box are arranged in the box body; the feeding component is arranged at the top of the box body; the stirring assembly and the stirring box are arranged in the box body, and the stirring box can be communicated with the storage box; the disinfection assembly and the treatment box are arranged at the bottom of the stirring box, and the treatment box is selectively communicated with the stirring box; the water purifying tank is arranged at the outer side of the tank body and can be communicated with the treatment tank; according to the application, the wastewater can be subjected to multistage filtration, the purifying effect is enhanced, and the wastewater treatment agent is conveniently added by arranging the feeding component and the stirring component, so that the wastewater treatment agent and the wastewater can be fully fused, and the wastewater treatment agent effect is optimized.

However, this wastewater treatment apparatus has the following drawbacks when used specifically:

1. when the existing waste water treatment device is used for treating waste liquid generated in colloid production and processing, the particle impurities in the waste liquid are generally filtered in a filtering mode to finish corresponding waste liquid treatment work, but when colloid production and processing is actually carried out, various harmful components are generally included in the generated waste liquid, such as: organic pollutants, metal impurities and the like, wherein the impurity particles are small, and the filtering is difficult to be carried out on a corresponding filter screen and the like, so that part of harmful components can be evaporated into gas and discharged into the atmosphere during subsequent distillation;

2. in the conventional wastewater treatment apparatus, when treating the waste liquid generated in the colloid production process, in order to ensure sufficient treatment of the harmful components in the waste liquid, a plurality of mechanisms for treating the waste liquid are generally provided for operation, but when actually treating, each of the steps for treating the waste liquid is operated in one space, and it is difficult to add a corresponding treatment mechanism according to the situation on site, which is more limited.

Disclosure of Invention

The application aims to provide a multistage interconnection type wastewater treatment mechanism for optical cement production, so as to solve the problems in the background art.

In order to achieve the aim of the application, the application adopts the following technical scheme:

the application provides a multistage interconnection type wastewater treatment mechanism for optical cement production, which comprises a primary treatment box body, a secondary treatment box body and a tertiary treatment box body, wherein the adjacent primary treatment box body, the secondary treatment box body and the tertiary treatment box body are communicated through a wastewater interconnection mechanism, the adjacent primary treatment box body, the secondary treatment box body and the tertiary treatment box body are connected through a clamping assembly, and the wastewater interconnection mechanism further comprises:

the primary transmission assembly is arranged on the side surface of the primary treatment box body and extends to the inside of the primary treatment box body, the bottom of the primary transmission assembly extends to the inside of the secondary treatment box body, and the biological membrane purification assembly extending to the inside of the secondary treatment box body is further arranged outside the secondary treatment box body;

the secondary transmission pipelines are arranged at the tops of the secondary treatment box body and the tertiary treatment box body and extend to the inner sides of the two, and a plurality of adsorption magnets are detachably and equidistantly arranged in the center of the inner part of the tertiary treatment box body;

the top of the first-stage treatment box body is provided with a support frame body, the inner center of the support frame body is penetrated and provided with a waste liquid inlet pipeline extending to the inside of the first-stage treatment box body, the side surface of the waste liquid inlet pipeline is provided with a waste liquid treatment assembly extending to the inside of the first-stage treatment box body, and the waste liquid treatment assembly further comprises:

the gear driving assembly is arranged on the side surface of the support frame body and extends to the top of the primary treatment box body, and a plurality of waste liquid stirring assemblies extending to the inside of the primary treatment box body are arranged in the gear driving assembly;

the heating and stirring assembly is arranged at the bottom of the waste liquid stirring assembly and is rotationally connected with the inner bottom of the primary treatment box body, and an impurity screening assembly positioned on the inner wall of the primary treatment box body is arranged at the joint of the heating and stirring assembly and the waste liquid stirring assembly;

the coagulating sedimentation component is arranged on the outer side of the primary treatment box body and extends to the side surface of the heating and stirring component, and a plurality of coagulating sedimentation components are arranged;

the central control port is arranged on the outer side of the primary treatment box body and is electrically connected with the wastewater interconnection mechanism and the wastewater treatment assembly respectively.

As a preferable scheme of the application, the clamping assembly comprises mounting arms which are respectively mounted on the side surfaces of the secondary treatment box body and the tertiary treatment box body through bolts, the bottoms of the mounting arms extend to the inside of clamping parts, and the clamping parts are respectively mounted on the side surfaces of the primary treatment box body and the secondary treatment box body; the screw thread rotating rod is in threaded connection with the inside of the clamping part, the bottom of the screw thread rotating rod is rotationally connected with a clamping block, and the clamping block extrudes an installation arm at the inner side of the clamping block; wherein, the grip block is connected with the inner wall of the clamping part in a sliding way.

As a preferred embodiment of the present application, the primary transmission assembly includes:

the liquid pump is arranged on the side surface of the primary treatment box body, the bottom of the liquid pump extends to the inner bottom of the primary treatment box body through a pipeline, and a liquid outlet of the liquid pump is connected with a primary transmission pipeline;

and the liquid flow rate control valve is arranged on one side of the top of the secondary treatment box body and is arranged on the outer side of the primary transmission pipeline.

As a preferred embodiment of the present application, the biofilm purifying module includes:

the reagent adding tank is arranged at the top of the secondary treatment box body, a reagent adding pipeline extending to the inside of the secondary treatment box body is arranged at the liquid outlet of the reagent adding tank, and another group of liquid flow rate control valves positioned at the top of the secondary treatment box body are arranged at the outer side of the reagent adding pipeline;

the biological film purifying layer is arranged in the secondary treatment box body, and a microbial adhesive film is attached to the surface of the biological film purifying layer.

As a preferred embodiment of the present application, the gear driving assembly includes:

the servo motor is arranged on one side of the top of the support frame body and positioned on the side surface of the waste liquid inlet pipeline, and the output end of the servo motor penetrates through the support frame body and is connected with the first gear;

the transfer gear is rotationally connected to the top of the primary treatment box body and positioned at the outer side of the waste liquid inlet pipeline, and the transfer gear is meshed with the first gear;

and the second gears are connected to the outer sides of the transfer gears in a meshed manner and are provided with four groups, and waste liquid stirring assemblies are arranged in the second gears.

As a preferable scheme of the application, the waste liquid stirring assembly comprises a first stirring shaft which is arranged at the inner center of the second gear and extends to the inside of the primary treatment box body, and a plurality of stirring blades are equidistantly arranged on the outer side of the first stirring shaft;

wherein, heating stirring subassembly is installed to the bottom of first (mixing) shaft.

As a preferred scheme of the application, the inner center of the first stirring shaft is hollow, a wire is arranged at the inner center of the first stirring shaft, the top of the wire penetrates through the supporting frame body, the wire is connected with the battery pack, and the battery pack is arranged at the top of the supporting frame body and positioned at two sides of the waste liquid inlet pipeline;

wherein the lead is connected with the heating and stirring assembly.

As a preferred embodiment of the present application, the heating and stirring assembly includes:

the first heating rod is arranged at the bottom of the first stirring shaft and connected with a wire, the bottom of the first heating rod is provided with a mixing fan blade, and the bottom of the mixing fan blade is provided with a second heating rod;

the first heating rod and the second heating rod are connected in series, the bottom of the second heating rod is provided with another group of mixing fan blades, and the mixing fan blades are rotationally connected with the inner bottom of the primary treatment box body.

As a preferable scheme of the application, the impurity screening component comprises an alignment frame which is arranged at an included angle of the inner wall of the primary treatment box body, a screening frame body is obliquely supported at the top of the alignment frame, and a screening grid is arranged in the screening frame body;

wherein, screening net's inside has still been seted up with first (mixing) shaft assorted recess.

As a preferred embodiment of the present application, the coagulating sedimentation assembly includes:

the reagent storage tank is arranged at the outer side of the primary treatment box body, and a liquid outlet of the reagent storage tank is connected with a reagent discharge pipeline extending to the interior of the primary treatment box body;

and the outside of the reagent discharge pipeline is also provided with a flow control valve positioned outside the primary treatment box body.

Compared with the prior art, the above technical scheme has the following beneficial effects:

1. the multistage interconnection type waste water treatment mechanism for optical cement production can automatically carry out screening treatment on large particle impurities in waste liquid to finish primary treatment of the waste liquid impurities when the waste liquid generated by optical cement production is treated through stirring blades, mixing blades and screening isolated screening grids, meanwhile, the treated waste liquid can flow to the inner bottom of a primary treatment box body and be subjected to secondary treatment in a stirring and heating mode, wherein the secondary treatment operation can be matched with the addition of a coagulant in a reagent adding tank to precipitate part of impurities (colloid substances, fine suspended matters and the like) in the waste liquid, the effect of precipitation treatment on part of impurities (colloid substances, fine suspended matters and the like) in the waste liquid is accelerated, in the treatment flow of the waste liquid, the stirring blades and the mixing blades for stirring can be automatically stirred in the same rotation direction, and the effect of the treatment on the waste liquid in the primary treatment box body is improved when the waste liquid is mixed with the coagulant;

2. according to the multistage interconnection type waste water treatment mechanism for optical cement production, when waste water generated in optical cement production is treated, whether a corresponding treatment box body is added or not can be freely selected according to the production steps of the optical cement, the effect of treating the waste water when the waste water is treated is improved, the mode of adding the waste water is achieved through simply pressing an installation arm and rotating a screw thread rotating rod, the operation is simple and convenient, meanwhile, the treatment steps of treating the waste water in each group of treatment box bodies can be carried out in the cavity of the independent treatment box body, after the treatment of the waste water in the treatment box body of the previous group is finished, the treatment work of the waste water in the treatment box body of the next group is not influenced, meanwhile, the waste water generated in the treatment box body of the previous group is cleaned or is added again, the multistage interconnection type treatment is met, and the efficiency of treating the waste water generated in optical cement production is improved;

3. according to the multistage interconnection type waste water treatment mechanism for optical cement production, waste liquid after being treated in the first-stage treatment box body is pumped and moved to the inside of the second-stage treatment box body through the design of a liquid pump, and the waste liquid is stored and discharged through the calcium peroxide and the magnesium peroxide in the reagent adding tank and is mixed with the pumped waste liquid in equal proportion, at the moment, the calcium peroxide and the magnesium peroxide react with water in the waste liquid to degrade organic matters by aerobic microorganisms in the waste liquid, and the waste liquid after the aerobic treatment can be pumped to the third-stage treatment box body through matching with the second-stage transmission pipeline, and metal impurities in the waste liquid are adsorbed through the adsorption magnet, so that harmless treatment of the waste liquid is realized, and the treatment effect on the impurities in the waste liquid is further improved;

4. this a multistage interconnection formula waste water treatment mechanism for optical cement production, accessible stirring sieve realizes the primary treatment of waste liquid, realizes the secondary treatment of waste liquid through heating precipitation, can realize the tertiary treatment of waste liquid through aerobic reaction, can realize the quaternary treatment of waste liquid through the absorption of metal impurity, guarantees when handling the waste liquid that optical cement production produced in practice, to the effect that harmful impurities such as chemistry and biology were got rid of wherein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application.

Furthermore, the terms "install," "set," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

FIG. 1 is a schematic view of the overall structure of the present application;

FIG. 2 is a schematic view of the overall structure of the top cover of the present application after the top cover is opened;

FIG. 3 is a schematic view of the overall rear face of the present application;

FIG. 4 is a schematic overall elevational view of the present application;

FIG. 5 is a schematic view of the structure of the primary treatment tank of the present application in cross-section;

FIG. 6 is a schematic view of the structure of the secondary treatment tank and the tertiary treatment tank of the present application with the top cover open;

FIG. 7 is a schematic view of a snap-fit assembly according to the present application;

FIG. 8 is a schematic view of the gear drive assembly and battery pack connection of the present application;

FIG. 9 is a schematic view of the connection of the battery pack and the gear drive assembly of the present application;

FIG. 10 is a schematic view of the connection of the battery pack and the heating and stirring assembly of the present application;

FIG. 11 is a schematic view of the structure of an impurity screening assembly of the present application;

in the figure:

10. a primary treatment box body; 10i, supporting a frame body;

20. a secondary treatment tank;

30. a three-stage treatment box body; 30i, an adsorption magnet;

40. a waste water interconnection mechanism;

50. a clamping assembly; 501. a mounting arm; 502. a positioning part; 503. a threaded rotating rod; 504. a clamping block;

60. a primary transmission assembly; 601. a liquid pump; 602. a primary transfer pipe; 603. a liquid flow rate control valve;

70. a biofilm purification assembly; 701. a reagent addition tank; 702. a reagent addition line; 703. a biological film purifying layer;

80. a secondary transfer pipe;

90. waste liquid enters a pipeline;

100. a waste liquid treatment assembly;

110. a gear drive assembly; 1101. a servo motor; 1102. a first gear; 1103. a transfer gear; 1104. a second gear;

120. a waste liquid stirring assembly; 1201. a first stirring shaft; 1201a, wires; 1201b, a battery pack; 1202. stirring fan blades;

130. heating and stirring the component; 1301. a first heating rod; 1302. mixing fan blades; 1303. a second heating rod;

140. an impurity screening assembly; 1401. an alignment frame; 1402. a sieving frame; 1403. screening grids; 1403i, grooves;

150. a coagulating sedimentation assembly; 1501. a reagent storage tank; 1502. a reagent discharge pipe; 1503. a flow control valve;

160. and a central control port.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

Referring to fig. 1 to 11, a multistage interconnection type wastewater treatment mechanism for optical cement production comprises a first stage treatment tank 10, a second stage treatment tank 20 and a third stage treatment tank 30, wherein adjacent first stage treatment tank 10, second stage treatment tank 20 and third stage treatment tank 30 are communicated through a wastewater interconnection mechanism 40, adjacent first stage treatment tank 10, second stage treatment tank 20 and third stage treatment tank 30 are connected through a clamping assembly 50, the wastewater interconnection mechanism 40 further comprises a first stage transmission assembly 60 which is arranged on the side surface of the first stage treatment tank 10 and extends to the inside of the first stage treatment tank 10, the bottom of the first stage transmission assembly 60 extends to the inside of the second stage treatment tank 20, and a biological membrane purification assembly 70 extending to the inside of the second stage treatment tank 20 is further arranged outside the second stage treatment tank 20; the secondary transmission pipeline 80 is arranged at the top of the secondary treatment box body 20 and the tertiary treatment box body 30 and extends to the inner sides of the two, and a plurality of adsorption magnets 30i are detachably and equidistantly arranged at the inner center of the tertiary treatment box body 30; the top of the primary treatment box body 10 is provided with a support frame body 10i, a waste liquid inlet pipeline 90 extending into the primary treatment box body 10 is arranged in the center of the interior of the support frame body 10i in a penetrating manner, a waste liquid treatment assembly 100 extending into the primary treatment box body 10 is arranged on the side surface of the waste liquid inlet pipeline 90, the waste liquid treatment assembly 100 further comprises a gear driving assembly 110 which is arranged on the side surface of the support frame body 10i and extends to the top of the primary treatment box body 10, and a plurality of waste liquid stirring assemblies 120 extending into the primary treatment box body 10 are arranged in the gear driving assembly 110; the heating and stirring assembly 130 is installed at the bottom of the waste liquid stirring assembly 120 and is rotationally connected with the inner bottom of the primary treatment box 10, and an impurity screening assembly 140 positioned on the inner wall of the primary treatment box 10 is installed at the joint of the heating and stirring assembly 130 and the waste liquid stirring assembly 120; the coagulating sedimentation assembly 150 is arranged outside the primary treatment box 10 and extends to the side surface of the heating and stirring assembly 130, and the coagulating sedimentation assembly 150 is provided with a plurality of coagulating sedimentation assemblies; and a central control port 160 installed at the outer side of the primary treatment tank 10, the central control port 160 being electrically connected with the wastewater interconnection mechanism 40 and the wastewater treatment assembly 100, respectively.

The working principle is as follows: when the waste liquid generated by the production and processing of the optical cement is treated, firstly, the collected waste liquid enters the inside of the first-stage treatment box body 10 through the waste liquid inlet pipeline 90, the gear driving assembly 110 is started to operate through the central control port 160, the four groups of waste liquid stirring assemblies 120 and the heating stirring assembly 130 are driven to operate synchronously, at the moment, the operation of the waste liquid stirring assemblies 120 and the heating stirring assembly 130 can drive the entering waste liquid to stir, impurities in the waste liquid are screened, separation is realized through the impurity screening assembly 140, wherein the screened waste liquid can be heated and stirred, and the coagulant in the coagulating sedimentation assembly 150 is added, so that colloid substances and fine suspended matters in the waste liquid are aggregated into large-particle flocs, the sedimentation is accelerated, solid-liquid separation is enhanced, meanwhile, the waste liquid after the first-stage treatment box body 10 is internally treated, the waste liquid can be transmitted to the inside of the second-stage treatment box body 20 through the first-stage transmission assembly 60, the organic matters in the waste liquid are subjected to aerobic biological treatment, the waste biological degradation of the waste liquid is harmless and stabilized, the treated simultaneously, the treated waste liquid can be moved to the inside the third-stage transmission pipeline 80, the metal is adsorbed in the third-stage treatment box body 30 through the inside the magnet, and the absorption of the waste liquid in the production and the metal is fully discharged in the process of the air of the waste liquid is reduced.

Referring specifically to fig. 1, 2, 3, 4, 6, 7 and 8, for convenience of adding corresponding waste liquid treatment mechanisms according to needs, the engaging assembly 50 includes mounting arms 501 mounted on the sides of the secondary treatment tank 20 and the tertiary treatment tank 30 respectively by bolts, the bottoms of the mounting arms 501 extend into the inside of the engaging members 502, and the engaging members 502 are mounted on the sides of the primary treatment tank 10 and the secondary treatment tank 20 respectively; a screw thread rotating rod 503 which is in screw thread connection with the inside of the clamping part 502, the bottom of the screw thread rotating rod 503 is rotationally connected with a clamping block 504, and the clamping block 504 extrudes the mounting arm 501 at the inner side; wherein, the clamping block 504 is slidably connected with the inner wall of the clamping component 502.

According to the multistage interconnection type waste water treatment mechanism for optical cement production, through the arrangement of the mounting arm 501, when waste liquid generated in optical cement production is actually treated, a corresponding number of treatment boxes can be selectively added according to production steps, and the specific mounting process is as follows: firstly, the mounting arm 501 to be added to the side surface of the processing box body extends to the inside of the clamping part 502 on the side surface of the processing box body after the adjacent installation is completed, after the installation is completed, the threaded rotating rod 503 is manually selected, the clamping block 504 which is rotationally connected with the bottom of the threaded rotating rod 503 is driven to move, the upper side and the lower side of the mounting arm 501 placed on the inner side of the threaded rotating rod are extruded and clamped, the installation is completed, and the operation is simple and convenient.

Referring specifically to fig. 1, 2, 3, 4, 6 and 7, in order to facilitate the movement of the waste liquid treated inside the primary treatment tank 10 into the secondary treatment tank 20, the primary transfer assembly 60 includes a liquid pump 601 installed at a side of the primary treatment tank 10 and having a bottom extending to an inner bottom of the primary treatment tank 10 through a pipe, and a liquid outlet of the liquid pump 601 is connected with a primary transfer pipe 602; a liquid flow rate control valve 603 installed at one side of the top of the secondary treatment tank 20 and at the outside of the primary transfer pipe 602.

According to the multistage interconnection type wastewater treatment mechanism for optical cement production, through the design of the liquid suction pump 601, waste liquid can be sucked into the secondary treatment box body 20 through the liquid inlet of the liquid suction pump 601 and the pipeline extending to the inside of the primary treatment box body 10, and secondary treatment is conveniently realized through the internal structure of the secondary treatment box body 20.

Referring specifically to fig. 1, 2, 3, 4, 6 and 7, in order to treat aerobic microorganisms in the extracted waste liquid, the biofilm purifying module 70 includes a reagent adding tank 701 installed at the top of the secondary treatment tank 20, a reagent adding pipe 702 extending to the inside of the secondary treatment tank 20 is installed at a liquid outlet of the reagent adding tank 701, and another set of liquid flow rate control valves 603 located at the top of the secondary treatment tank 20 are installed at the outer side of the reagent adding pipe 702; and a biofilm purification layer 703 installed inside the secondary treatment tank 20, wherein a microorganism adhesive film is attached to the surface of the biofilm purification layer 703.

According to the multistage interconnection type wastewater treatment mechanism for optical cement production, calcium peroxide and magnesium peroxide stored in the reagent adding tank 701 are added into the secondary treatment box 20 through the reagent adding pipeline 702, at the moment, the calcium peroxide and the magnesium peroxide react with water in waste liquid, active oxygen can be slowly and controllably released to promote the growth of aerobic microorganisms, and the soluble organic pollutants are adsorbed by the biological film purification layer 703 and are further oxidized and decomposed by microorganisms to be converted into H2O, CO, NH3 and microbial cytoplasm, so that sewage is purified.

Referring to fig. 1, 2, 3, 4, 9 and 10, in order to synchronously drive the four sets of waste liquid stirring assemblies 120 to operate, the gear driving assembly 110 includes a servo motor 1101, which is mounted on one side of the top of the supporting frame 10i and is located on the side of the waste liquid inlet pipe 90, and an output end of the servo motor 1101 penetrates through the supporting frame 10i and is connected to the first gear 1102; a transfer gear 1103 rotatably connected to the top of the primary treatment tank 10 and located outside the waste liquid inlet pipe 90, the transfer gear 1103 being in meshed connection with the first gear 1102; and a second gear 1104 which is engaged and connected to the outer side of the transfer gear 1103 and is provided with four groups, and the waste liquid stirring assemblies 120 are installed in the second gear 1104.

According to the multistage interconnection type wastewater treatment mechanism for optical cement production, the servo motor 1101 can be started to operate through the central control port 160, the first gear 1102 connected with the output end of the servo motor is driven to rotate, the rotation of the first gear 1102 drives the transfer gear 1103 in meshed connection to rotate, and further the four groups of second gears 1104 in meshed connection with the outer side of the transfer gear 1103 are driven to rotate, wherein the rotation directions of the four groups of second gears 1104 are the same.

Referring specifically to fig. 1, 2, 3, 4, 5 and 8, in order to stir the waste liquid at the top of the screening frame 1402, the waste liquid stirring assembly 120 includes a first stirring shaft 1201 mounted at the inner center of the second gear 1104 and extending into the first stage treatment tank 10, and a plurality of stirring blades 1202 mounted at equal intervals on the outer side of the first stirring shaft 1201; wherein the bottom of the first stirring shaft 1201 is mounted with a heating and stirring assembly 130.

According to the multistage interconnection type waste water treatment mechanism for optical cement production, the rotation of the second gear 1104 drives the first stirring shaft 1201 which is fixedly arranged in the center of the inner part of the mechanism to rotate, and further drives the stirring fan blades 1202 which are equidistantly arranged on the outer side of the first stirring shaft 1201 to rotate, so that waste liquid is stirred.

Referring specifically to fig. 1, 2, 3, 4, 5, 9 and 10, in order to heat and stir the waste liquid at the bottom of the sieving frame 1402, the first stirring shaft 1201 is hollow at the inner center and is provided with a wire 1201a at the inner center thereof, the top of the wire 1201a is provided through the supporting frame 10i, the wire 1201a is connected with a battery 1201b, and the battery 1201b is installed at the top of the supporting frame 10i and located at both sides of the waste liquid inlet pipe 90; wherein the wire 1201a is connected to the heating and stirring assembly 130.

According to the multistage interconnection type wastewater treatment mechanism for optical cement production, through the design of the battery pack 1201b, energy can be increased for heating of the second heating rod 1303, and the position of the conducting wire 1201a is set, so that the risk of winding of the first stirring shaft 1201 during rotation is reduced.

Referring specifically to fig. 1, 2, 3, 4, 5 and 11, in order to facilitate precipitation of colloidal substances and fine suspended substances in the waste liquid, the heating and stirring assembly 130 includes a first heating rod 1301 mounted at the bottom of the first stirring shaft 1201 and connected to the wire 1201a, a mixing fan blade 1302 mounted at the bottom of the first heating rod 1301, and a second heating rod 1303 mounted at the bottom of the mixing fan blade 1302; wherein, the first heating rod 1301 and the second heating rod 1303 are connected in series, another group of mixing fan blades 1302 is installed at the bottom of the second heating rod 1303, and the mixing fan blades 1302 are rotatably connected with the inner bottom of the primary treatment box 10.

According to the multistage interconnection type waste water treatment mechanism for optical cement production, the first stirring shaft 1201 rotates to drive the first heating rod 1301 arranged at the bottom of the mechanism to rotate, so that stirring waste liquid is heated, meanwhile, the first heating rod 1301 rotates to drive the mixing fan blade 1302 connected with the bottom to rotate, and the mixing fan blade 1302 drives the waste liquid to rotate and stir, so that heating and stirring are synchronously performed.

Referring specifically to fig. 1, 2, 3, 4, 5 and 11, in order to screen large-particle impurities, the impurity screening assembly 140 includes an alignment frame 1401 installed at an included angle of the inner wall of the primary treatment tank 10, a screening frame 1402 being obliquely supported at the top of the alignment frame 1401, and a screening grid 1403 being installed inside the screening frame 1402; wherein, the inside of screening net 1403 has still offered the recess 1403i that matches with first (1201) stirring axle.

According to the multistage interconnection type waste water treatment mechanism for optical cement production, in order to primarily screen large-particle impurities in waste liquid, the design of the screening grid 1403 can separate the large-particle impurities, and meanwhile, the screening frame 1402 and the screening grid 1403 which are obliquely arranged can be matched with stirring of the waste liquid, so that the probability of stacking the particle impurities on the screening grid 1403 is reduced.

Referring specifically to fig. 1, 2, 3, 4 and 5, in order to achieve precipitation of a part of impurities in the waste liquid, the coagulating sedimentation assembly 150 includes a reagent storage tank 1501 installed at the outside of the primary treatment tank 10, and a reagent discharge pipe 1502 extending into the primary treatment tank 10 is connected to a liquid outlet of the reagent storage tank 1501; wherein the outside of the reagent discharge piping 1502 is further provided with a flow control valve 1503 located outside the primary treatment tank 10.

According to the multistage interconnection type waste water treatment mechanism for optical cement production, due to the design of the coagulant in the reagent storage tank 1501, when waste liquid is actually treated, the coagulant is led into the space at the bottom of the screening frame 1402 through the flow control valve 1503 and the reagent discharge pipeline 1502, and the heating is matched, so that the precipitation of colloidal substances and fine suspended matters in the waste liquid is accelerated, and the treatment of waste liquid impurities is realized.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (10)

1. A multistage interconnection formula waste water treatment mechanism for optical cement production, handle box (10), secondary treatment box (20) and tertiary treatment box (30) including one-level, adjacent one-level is handled box (10), secondary treatment box (20) and tertiary treatment box (30) and is linked together through waste water interconnection mechanism (40), adjacent one-level is handled box (10), secondary treatment box (20) and tertiary treatment box (30) and is connected through block subassembly (50), its characterized in that: the waste water interconnection mechanism (40) further comprises:

the primary transmission assembly (60) is arranged on the side surface of the primary treatment box body (10) and extends to the inside of the primary treatment box body, the bottom of the primary transmission assembly (60) extends to the inside of the secondary treatment box body (20), and a biological membrane purification assembly (70) extending to the inside of the secondary treatment box body is further arranged outside the secondary treatment box body (20);

the secondary transmission pipeline (80) is arranged at the tops of the secondary treatment box body (20) and the tertiary treatment box body (30) and extends to the inner sides of the two, and a plurality of adsorption magnets (30 i) are detachably and equidistantly arranged at the inner center of the tertiary treatment box body (30);

support body (10 i) is installed at the top of one-level processing box (10), support body (10 i) inside center department runs through and is provided with waste liquid entering pipeline (90) that extend to the inside of one-level processing box (10), waste liquid entering pipeline (90) side-mounting has waste liquid treatment component (100) that extend to the inside of one-level processing box (10), waste liquid treatment component (100) still including:

the gear driving assembly (110) is arranged on the side face of the support frame body (10 i) and extends to the top of the primary treatment box body (10), and a plurality of waste liquid stirring assemblies (120) extending to the inside of the primary treatment box body (10) are arranged in the gear driving assembly (110);

the heating and stirring assembly (130) is arranged at the bottom of the waste liquid stirring assembly (120) and is rotationally connected with the inner bottom of the primary treatment box body (10), and an impurity screening assembly (140) positioned on the inner wall of the primary treatment box body (10) is arranged at the joint of the heating and stirring assembly (130) and the waste liquid stirring assembly (120);

the coagulating sedimentation assembly (150) is arranged on the outer side of the primary treatment box body (10) and extends to the side surface of the heating and stirring assembly (130), and the coagulating sedimentation assembly (150) is provided with a plurality of coagulating sedimentation assemblies;

and the central control port (160) is arranged on the outer side of the primary treatment box body (10), and the central control port (160) is electrically connected with the wastewater interconnection mechanism (40) and the wastewater treatment assembly (100) respectively.

2. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 1, wherein: the clamping assembly (50) comprises mounting arms (501) which are respectively mounted on the side surfaces of the secondary treatment box body (20) and the tertiary treatment box body (30) through bolts, the bottoms of the mounting arms (501) extend to the inside of clamping parts (502), and the clamping parts (502) are respectively mounted on the side surfaces of the primary treatment box body (10) and the secondary treatment box body (20); the threaded rotating rod (503) is in threaded connection with the inside of the clamping part (502), the bottom of the threaded rotating rod (503) is rotationally connected with a clamping block (504), and the clamping block (504) extrudes an installation arm (501) at the inner side of the clamping block; wherein, the clamping block (504) is connected with the inner wall of the clamping part (502) in a sliding way.

3. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 1, wherein: the primary transmission assembly (60) comprises:

the liquid extracting pump (601) is arranged on the side face of the primary treatment box body (10) and the bottom of the liquid extracting pump extends to the inner bottom of the primary treatment box body (10) through a pipeline, and a liquid outlet of the liquid extracting pump (601) is connected with a primary transmission pipeline (602);

and a liquid flow rate control valve (603) installed at one side of the top of the secondary treatment tank (20) and at the outer side of the primary transfer pipe (602).

4. A multistage interconnected wastewater treatment mechanism for optical cement production according to claim 3, wherein: the biological membrane purification component (70) comprises:

a reagent adding tank (701) which is arranged at the top of the secondary treatment box body (20), a reagent adding pipeline (702) which extends to the inside of the secondary treatment box body (20) is arranged at the liquid outlet of the reagent adding tank (701), and another group of liquid flow rate control valves (603) which are positioned at the top of the secondary treatment box body (20) are arranged at the outer side of the reagent adding pipeline (702);

and a biofilm purification layer (703) which is installed inside the secondary treatment box (20), wherein a microorganism adhesion film is attached to the surface of the biofilm purification layer (703).

5. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 1, wherein: the gear driving assembly (110) comprises:

the servo motor (1101) is arranged on one side of the top of the support frame body (10 i) and is positioned on the side surface of the waste liquid inlet pipeline (90), and the output end of the servo motor (1101) penetrates through the support frame body (10 i) and is connected to the first gear (1102);

the transfer gear (1103) is rotatably connected to the top of the primary treatment box body (10) and is positioned at the outer side of the waste liquid inlet pipeline (90), and the transfer gear (1103) is in meshed connection with the first gear (1102);

and the second gears (1104) are connected to the outer side of the transfer gears (1103) in a meshed manner, four groups of the second gears (1104) are arranged, and waste liquid stirring assemblies (120) are arranged in the second gears (1104).

6. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 5, wherein: the waste liquid stirring assembly (120) comprises a first stirring shaft (1201) which is arranged at the inner center of the second gear (1104) and extends to the inside of the primary treatment box body (10), and a plurality of stirring blades (1202) are equidistantly arranged on the outer side of the first stirring shaft (1201);

wherein, heating stirring assembly (130) is installed to the bottom of first (1201) stirring axle.

7. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 6, wherein: the inner center of the first stirring shaft (1201) is hollow, a wire (1201 a) is arranged at the inner center of the first stirring shaft, the top of the wire (1201 a) penetrates through the support frame body (10 i), the wire (1201 a) is connected with a battery pack (1201 b), and the battery pack (1201 b) is arranged at the top of the support frame body (10 i) and positioned at two sides of the waste liquid inlet pipeline (90);

wherein the wire (1201 a) is connected to a heating and stirring assembly (130).

8. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 7, wherein: the heating and stirring assembly (130) comprises:

the first heating rod (1301) is arranged at the bottom of the first stirring shaft (1201) and is connected with the lead (1201 a), the bottom of the first heating rod (1301) is provided with a mixing fan blade (1302), and the bottom of the mixing fan blade (1302) is provided with a second heating rod (1303);

the first heating rod (1301) and the second heating rod (1303) are connected in series, another group of mixing fan blades (1302) are arranged at the bottom of the second heating rod (1303), and the mixing fan blades (1302) are rotatably connected with the inner bottom of the primary treatment box body (10).

9. The multi-stage interconnected wastewater treatment mechanism for optical cement production of claim 6, wherein: the impurity screening component (140) comprises an alignment frame (1401), wherein the alignment frame is arranged at an included angle of the inner wall of the primary treatment box body (10), a screening frame body (1402) is obliquely supported at the top of the alignment frame (1401), and a screening grid (1403) is arranged in the screening frame body (1402);

the inside of the screening grid (1403) is also provided with a groove (1403 i) matched with the first stirring shaft (1201).

10. A multistage interconnected wastewater treatment mechanism for optical cement production according to claim 3, wherein: the coagulating sedimentation component (150) comprises:

a reagent storage tank (1501) installed outside the primary treatment tank (10), a liquid outlet of the reagent storage tank (1501) being connected with a reagent discharge pipe (1502) extending to the inside of the primary treatment tank (10);

the outside of the reagent discharge pipeline (1502) is also provided with a flow control valve (1503) positioned outside the primary treatment box body (10).